Operating unit, especially for operating a multimedia system in a motor vehicle

ABSTRACT

The invention relates to an operating unit, especially for operating a multimedia system in a motor vehicle, comprising an operating element that can be rotated about an axis (z), that can be moved along said axis of rotation (z) and that can be locked in a position (0, 1) on said axis (z). The operating element can also be moved on an plane (x, y) that is orthogonal relative to said axis (z) in order to control the movement of a cursor that can be shown on a display in any given direction.

[0001] The invention relates to an operator control unit, in particular for operating a multimedia system in a motor vehicle, having an operator control element which can be rotated about an axis and displaced along this axis and can be latched in a position on this axis.

[0002] Such an operator control element is known from EP 0 366 132 B1. There, by rotating a rotary switch about an axis, a specific function is selected from a menu represented on a screen, and confirmed by pressing the switch. Inadvertent confirmation can be rescinded by pulling the switch. As a result of the confirmation, the unit is changed over into another menu in which a selection is possible in the same way.

[0003] The object of the invention is to develop an operator control unit of the generic type in such a way that more comfortable operator control of a multimedia system becomes possible even when the functionality is increased.

[0004] The object is achieved by means of the features of claim 1. Advantageous developments are given in the subclaims.

[0005] Accordingly, the operator control unit is embodied in such a way that the operator control element can be displaced in at least one plane which is orthogonal with respect to its axis of rotation in order to actuate the movement of a cursor in any desired direction, which cursor can be represented on a screen of the multimedia system. The operator control element can therefore be used in the manner of a joystick so that not only is it possible to select specific elements from a permanently predefined number of elements which can be represented on a screen, for example from a menu, but also any desired points on a screen can be selected, as is known from the cursor in personal computers which is controlled by a mouse.

[0006] This is possible with only one operator control element in a vehicle which is arranged as ergonomically as possible, for example on the center console, so that the driver of the vehicle can operate the associated multimedia system easily and conveniently.

[0007] In one development of the invention, the operator control element can not only be pressed or pulled out of the position of rest in the direction of the axis of rotation, but also can be latched in at least one further position so that, in a further plane, convenient rotation of the operator control element or any desired movement in this plane is possible without the operator control element having to be held in this plane by the operator.

[0008] In a further development of the invention, the operator control element can assume, in each plane, a position of rest into which it can be reset by means of restoring elements by the operator after a deflection. In this way, the operator can assume that whenever the operator control element is released the cursor is at a predetermined point. In addition, the operator control element must be moved counter to the force of the restoring elements, which usually permits a more uniform movement.

[0009] In one advantageous embodiment of the invention, the operator control unit additionally has a touchpad which either can or else cannot rotate along with the rotatable part of the operator control element. The touchpad can be used for recognizing script or else can be moved in order to move the cursor on the screen of the multimedia system. In addition, it is possible to dispense with the movement in a plane which is orthogonal with respect to the axis of rotation of the operator control element in order to move the cursor and only use the touchpad for this purpose.

[0010] In order to identify authorized users, it is also possible to integrate a fingerprint sensor into the operator control unit.

[0011] In one advantageous embodiment of the invention, the speed of the cursor which can be represented on the screen of the multimedia system is a function of the distance covered by the deflection of the operator control element from its position of rest. The function may be, for example, an e function but also may give rise to the speed of the cursor which is proportional to the deflection of the operator control element.

[0012] As a result of the diverse activation possibilities of the operator control element it is possible to assign a specific advantageous functionality to each activation possibility. Thus, it is possible, for example, in a particularly advantageous way to enter a main menu from any desired position of the various operator control menus by pulling the operator control element, in other words by moving the operator control element in the direction of its axis of rotation.

[0013] The invention will be described in more detail below with reference to an exemplary embodiment using figures, in which:

[0014]FIG. 1 shows a detailed representation of a possible embodiment of an operator control element of an operator control unit according to the invention, and

[0015]FIG. 2 shows a quasi-photographic representation of the plan view of an operator control unit according to the invention.

[0016] The operator control element according to the invention in FIG. 1 is arranged in a recess in a housing part 20, for example the center console of a motor vehicle. It is seated on a mounting plate 21 which is connected to the housing part 20 by means of spacer pins 22.

[0017] In order to move in any desired direction in an x-y plane according to the coordinate system shown in the figure, the operator control element has a sleeve 10 which can move in the x-y direction, but is locked in the z direction by a cotter 11. The sleeve 10 is connected to the cotter 11 by means of restoring spring elements 12 which, on the one hand, permit movement in the x-y direction and, on the other hand, prevent rotation of the sleeve 10 about the z axis. The restoring spring elements 12 force the sleeve 10 back into the position of rest x,y=0 if no force is exerted on the sleeve 10.

[0018] A receiving element 14 which is secured against rotation of the receiving element 14 with respect to the sleeve 10 by means of locking elements 7 which engage in a groove 23 in the sleeve 10 is plugged over the sleeve 10.

[0019] The sleeve 10 also has depressions 24 into which latching spring elements 13 can engage in order to be able to hold the receiving element 14 in positions of rest in the z direction. Two such positions of rest, indicated by “0” and “1” are shown in FIG. 1. However, in principle further positions of rest are possible in the z direction.

[0020] A first printed circuit board 8 is plugged onto the receiving element 14 and is secured in position by a snap ring 9. The inner ring 6 a of a ring coder is plugged over the receiving element 14 from the other direction and soldered to the first printed circuit board 8. The outer ring 6 b, rotatable with respect to the inner ring 6 a, of the ring coder is plugged over the the inner ring 6 a of the ringer coder. The outer and inner rings 6 a, 6 b may have small grooves and projections (not illustrated) in order to permit latched rotation of the two rings 6 a, 6 b with respect to one another.

[0021] A second printed circuit board 4, on which a joystick 3 is arranged, is inserted into the receiving element 14 in such a way that the joystick 3 projects into a recess 25 in the cotter 11. The second printed circuit board 4 is secured with a securing ring 5. The joystick 3 detects the movement of the sleeve 10 with respect to the cotter 11 in an x-y plane by tilting and outputs corresponding electrical signals which are passed on via the second printed circuit board 4. The joystick 3 is also embodied as a momentary-contact switch which detects a movement of the receiving element 14 in the negative z direction by pressing the operator control element.

[0022] At the top, a touchpad 2 is inserted into the receiving element 14. An operator control ring 1 is plugged over the receiving element 14 and the ring coder 6 a, 6 b and, on the one hand, engages by means of latching projections 26 in corresponding recesses 27 in the outer ring 6 bof the ring coder in order to be secured against pulling off, and, on the other hand, has protrusions 28 on its inner side which engage in grooves 29 of the outer ring 6 b of the ring coder in order to transmit a rotation of the operator control ring 1 onto the outer ring 6 b of the ring coder.

[0023] When protrusions 28, grooves 29, latching projections 26, recesses 27, etc are mentioned in the description, although only one such element can be seen in each case in FIG. 1, this is intended to mean that two or more such elements may also be provided and distributed over the circumference of the operator control element.

[0024] With the exemplary embodiment of an inventive operator control element of an operator control unit which is illustrated in FIG. 1, as is apparent from the description, a rotation about the z axis is just as possible as pressing in the negative z direction and pulling in the z direction. In addition, it is possible to push the operator control element in x-y planes in various positions on the z axis in any desired direction. As a result, it is possible, with just one operator control element, to move a cursor on a screen of a multimedia system and, for example by pressing the operator control element, select a certain submenu, displayed on the screen and selected by means of the cursor, from a number of menus, and enter any desired menus in this way. It is advantageously possible to speak back into the main menu from any desired submenu by pulling on the operator control element in the z direction.

[0025] The touchpad 2 permits further cursor movements or else recognition of script. The touchpad 2 can either be permanently connected to the operator control ring 1 here, and thus rotate with it, or be permanently connected to the receiving element 14.

[0026] The electrical terminals of the printed circuit boards 4, 8 may be led to the outside, for example through the cotter 11. In order to be able to sense the latched positions “0” and “1” of the receiving element 14 electrically, a voltage divider may be implemented. For this purpose, the components comprising the latching spring elements 13 and sleeve 10 form a circuit with which it is possible to tap the resulting voltage difference.

[0027]FIG. 2 shows a quasi-photographic representation of the plan view of an operator control unit according to the invention. Of the operator control element it is possible to see the operator control ring 1, which can be rotated, pressed, pulled and displaced, as well as the touchpad 2 into which a fingerprint sensor is integrated. The operator control unit which is illustrated also has a depression for a hand 40 for securing a wrist if there is no center arm rest available in the vehicle in order to permit the user to rest the wrist/arm in a relaxed fashion. In addition, an on/off switch 30 is provided in order to activate and deactivate the multimedia system. For specific functions, for example recurring functions, a plurality of pushbutton keys 50 are arranged around the operator control element. 

1. An operator control unit, in particular for operating a multimedia system in a motor vehicle, having an operator control element which can be rotated about an axis (z) and displaced along this axis (z) and can be latched in a position (“0”) on this axis (z), characterized in that the operator control element can be displaced in at least one plane (x, y) which is orthogonal with respect to this axis (z), in order to actuate the movement of a cursor in any desired direction, which cursor can be represented on a screen of the multimedia system.
 2. The operator control unit as claimed in claim 1, characterized in that the operator control element can be latched in at least one further position (“1”) on the axis (z).
 3. The operator control unit as claimed in claim 1 or 2, characterized in that the operator control element assumes, in each plane (x, y), a position of rest into which it can be reset by means of restoring elements (12) after a deflection.
 4. The operator control unit as claimed in one of the preceding claims, characterized in that it has a touchpad (2).
 5. The operator control unit as claimed in claim 4, characterized in that the touchpad (2) is integrated into the operator control element.
 6. The operator control unit as claimed in claim 5, characterized in that the touchpad (2) is permanently connected to the nonrotatable part (14) of the operator control element.
 7. The operator control unit as claimed in claim 5, characterized in that the touchpad (2) is permanently connected to the rotatable part (1) of the operator control element.
 8. The operator control unit as claimed in one of the preceding claims, characterized in that it has a fingerprint sensor.
 9. The operator control unit as claimed in one of the preceding claims, characterized in that the speed of the cursor which can be represented on the screen of the multimedia system is a function of the distance by which the operator control element is deflected from its position of rest.
 10. The operator control unit as claimed in one of the preceding claims, characterized in that a function can be triggered by pressing the operator control element in the direction of its axis (z) of rotation. 